EC:6.5.1.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:6.5.1.1 (DNA ligase)
2,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Both H2O2 (IC50 = 70 microM) and HOCl (IC50 = 8.5 microM) inhibited mitogen-induced MNL proliferation in a dose-dependent manner. This was found to be due to a depletion of intracellular ATP by at least two distinct mechanisms. HOCl and high concentrations (greater than 100 microM) of H2O2 inhibit ATP generation via sulfhydryl group oxidation on the active site of the glyceraldehyde-3-phosphate dehydrogenase (G3PDH) enzyme of the glycolytic pathway. On the other hand, low H2O2 concentrations cause ATP depletion by an activation of the DNA repair enzyme, poly(ADP-ribose)polymerase (pADPRP), leading to consumption of NAD+, an essential cofactor for G3PDH. The anti-oxidants ascorbate and cysteine protected MNL against the anti-proliferative effects of HOCl. Similar results were achieved with the HOCl-mediated inhibition of ATP production and G3PDH activity. However, ascorbate was unable to protect against H2O2-mediated inhibition of MNL functions, while cysteine protected against the inhibitory effects on ATP production and G3PDH activity, induced by this oxidant.
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PMID:Biochemical mechanisms of hydrogen peroxide- and hypochlorous acid-mediated inhibition of human mononuclear leukocyte functions in vitro: protection and reversal by anti-oxidants. 132 47

Oxidants are generated in vivo by multiple mechanisms, including stimulation of leukocytes, hyperoxia, metabolism of arachidonic acid, and the activation of various oxidases. When the biochemical defences to the oxidants are inadequate, injury of tissues results. This injury was observed in rabbits and rhesus monkeys when pulmonary inflammation was induced with phorbol esters or formylated peptide given intrabronchially. We have recently investigated metabolic changes in various cells exposed to oxidants that are generated from stimulated leukocytes, including H2O2, O2, and HOCl. The target cells used were P388D1 murine macrophage-like tumour cells, human peripheral lymphocytes, GM 1380 human fibroblasts and rabbit alveolar macrophages. The oxidants used were H2O2 and PMA stimulated PMNs or neutroplasts. Lysis could only be prevented when catalase was added within the first 30-40 min of H2O2 exposure indicating that early metabolic changes determined the fate of the cell. Within seconds after the addition of H2O2 to P388D1 cells activation of the hexose monophosphate shunt (HMPS) was observed indicative of increased glutathione cycle activity. At the same time DNA strand breaks (determined by an alkaline unwinding technique) were detected. They resulted in the activation of the DNA repair enzyme poly-ADP-ribose polymerase (pADP-RP) within minutes after the addition of H2O2. At the same time ATP and NAD (the substrate of pADP-RP) concentrations dropped and nicotinamide accumulated extracellularly. 10-15 min after oxidant exposure free intracellular Ca++ concentrations determined by Quin 2 fluorescence started to increase due to release from intracellular stores.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Oxidant and protease injury of the lung. 369 17

Exposure of human nasal ciliated epithelium to reactive oxidants generated by the enzymatic xanthine-xanthine oxidase superoxide/hydrogen peroxide (H2O2) and glucose-glucose oxidase H2O2-generating systems, or to reagent H2O2 or hypochlorous acid (HOCl) resulted in significant alterations in ciliary beating. The earliest change noted was the presence of ciliary slowing, progressing eventually to complete ciliary stasis in some areas. Ciliary dyskinesia was seen within the first hour, often from as early as 15 min after exposure of the cells to reactive oxidants. Using peroxidases, various antioxidant enzymes, and oxidant scavengers, we confirmed that these detrimental effects on ciliary function were mediated primarily by H2O2 and HOCl. Moreover, 3-aminobenzamide (3-ABA), an inhibitor of the DNA repair enzyme poly ADP ribose polymerase, prevented H2O2-mediated inhibition of ciliary function, indicating that oxidant-mediated damage to DNA may well be the basis of the effects of H2O2 on ciliated epithelium. Acute and chronic inflammatory responses may therefore present the possible threat of H2O2- or HOCl-inflicted injury on bystander respiratory epithelium, leading to ciliary dyskinesia and slowing.
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PMID:Oxidant-mediated ciliary dysfunction in human respiratory epithelium. 795 61

Treatment of plasmid pBR322 with Fe2-(HPTB)(OH)(NO3)4(HPTB = N,N,N',N'-tetrakis(2-benzimidazolylmethyl)-2-hydroxy-1,3-diaminopr opane) and H2O2 or O2 and a reductant (dithiothreitol or ascorbate) results in double-stranded cleavage of the plasmid. The linearization of supercoiled pBR322 by this complex is not inhibited by hydroxyl radical scavengers. On the other hand, the linearized pBR322 is efficiently religated by T4 DNA ligase, and the presence of 3'-OH and 5'-OPO3 ends is corroborated by 3'- and 5'-end-labeling studies. These observations indicate that cleavage results from hydrolysis of the DNA-phosphate backbone, which is proposed to occur by nucleophilic attack of the bound peroxide on the phosphodiester. Double-stranded cleavage by the Fe2(HPTB)(OH)(NO3)4/H2O2 adduct preferentially occurs between bp 3489 and 3485 of pBR322.
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PMID:Double-stranded cleavage of pBR322 by a diiron complex via a "hydrolytic" mechanism. 829 May 64

The induction of 8-hydroxyguanine (oh8Gua) endonuclease, a DNA repair enzyme for an oxidatively modified guanine, oh8Gua was studied in various growth conditions in Escherichia coli (AB1157). Anaerobically grown E. coli were found to have a very low activity of this enzyme while aerobically grown cells showed activity about 20 times that of the anaerobic level. Under the same condition, superoxide dismutase (SOD) showed about 6-fold increase in activity. A shift in growth conditions from anaerobic to aerobic resulted in rapid induction of this enzyme, and this induction was blocked (but not completely) by chloramphenicol. It is indicated that molecular oxygen is an effective stimulator to the induction of this enzyme and its induction depends partly on protein synthesis. Superoxide-producing compounds such as paraquat and menadione also increased the activity of endonuclease as well as SOD, but H2O2 showed no effect. Thus, superoxides are also implied as a stimulator. In contrast, hyperoxia induced only SOD not the endonuclease. This induction of the endonuclease by hyperoxia was only observed in a SOD-deficient strain (QC774). The aerobic activity of the endonuclease in QC774 was the same as that of wild types (AB1157, GC4468). It is implied that the responsiveness of oh8Gua endonuclease to superoxides is less sensitive than that of SOD. The endonuclease was also induced by a temperature shift from 30 to 43 degrees C and treatment with nalidixic acid. Among the stimuli used, molecular oxygen seems to be most effective for its induction. The inducible nature of this enzyme will serve as an important mechanism for the protection of oxidative DNA damage in the aerobic environment.
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PMID:Induction of E. coli oh8Gua endonuclease by oxidative stress: its significance in aerobic life. 867 25

V79mut1 cells are resistant to the toxic effects of 5-hydroxymethyl-2'-deoxyuridine (hmdUrd) and are deficient in the DNA repair enzyme hydroxymethyluracil-DNA glycosylase (hmUDG). We have therefore proposed that the toxicity of hmdUrd results from the repair of the lesion from DNA. In order to clarify the biological role of hmUDG, we have determined whether the repair-deficient cells showed resistance or sensitivity to the toxic or mutagenic effects of other DNA-damaging agents. Cells were exposed to hmdUrd, ionizing or ultraviolet radiation, to the alkylating agent MNNG, and to oxidative stress produced by hypoxanthine/xanthine oxidase, glucose/glucose oxidase, nitric oxide donor SNAP, or to H2O2. The V79mut1 cells did not show increased mutagenesis in response to hmdUrd. Relative to the V79 parent cells, the V79mut1 cells were not markedly altered in sensitivity to oxidizing agents and ionizing radiation (which produce hmdUra in DNA). The repair-deficient cells wee equally sensitive as the parent V79 cells to DNA damage induced by ultraviolet radiation or by MNNG. No significant differences were seen between the parent and the repair-deficient cells in terms of synthesis of poly(ADP-ribose) in response to damage or in their sensitization to 3-aminobenzamide. Thus, the loss of the 5-hydroxymethyluracil (hmUra)-DNA glycosylase activity in mammalian cells in culture confers no obvious deleterious effect on cell survival or mutagenicity in response to a wide range of DNA damage. These studies indicate that the major lesion known to be repaired by hmUra-DNA glycosylase, an hmUra residue replacing thymine, is produced in cells only in small quantities as the result of exposure to common DNA-damaging agents. These results raise the possibility that hmUra-DNA glycosylase may have evolved to respond to other lesions than hmUra residues formed from the oxidation of thymine.
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PMID:Lack of phenotypic alteration of hmUra-DNA glycosylase-deficient hamster cells exposed to DNA-damaging agents. 910 Aug 52

Postischemic endothelial dysfunction may occur as a result of the effects of endogenous oxidants like hydrogen peroxide. Since endothelium-dependent vasodilator function may be affected by pHi, the effect of hydrogen peroxide on endothelial pHi was examined. Hydrogen peroxide (100 micromol/L for 10 minutes) decreased pHi from 7.24+/-0.01 to 7.02+/-0.02 and inhibited recovery from an ammonium chloride-induced intracellular acid load in carboxy SNARF 1 (c-SNARF 1)-loaded human aortic endothelial cells in bicarbonate-free solution. Prior inhibition of Na+/H+ exchange with 5-(N-ethyl-N-isopropyl)amiloride (10 micromol/L), by removal of extracellular Na+, or by glycolytic inhibition with iodoacetic acid blocked the subsequent effect of hydrogen peroxide on pHi. A 2-minute exposure to 100 micromol/L H2O2 decreased intracellular ATP levels by approximately 40%; this was prevented by 3-aminobenzamide and nicotinamide (1 mmol/L each), inhibitors of the DNA repair enzyme poly(ADP-ribose) polymerase. Both 3-aminobenzamide and nicotinamide significantly inhibited the hydrogen peroxide-induced intracellular acidification and the effect of hydrogen peroxide on recovery from an intracellular acid load. Hydrogen peroxide decreases pHi in human endothelial cells by inhibiting Na+/H+ exchange. This appears to be mediated by activation of the DNA repair enzyme poly(ADP-ribose) polymerase and subsequent depletion of intracellular ATP. Since a decrease in pHi in this range may alter the activity of NO synthase or affect the synthesis of vasodilator prostaglandins, the effect of hydrogen peroxide on the endothelial Na+/H+ exchanger may be important in the pathogenesis of postischemic endothelial dysfunction.
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PMID:Hydrogen peroxide decreases pHi in human aortic endothelial cells by inhibiting Na+/H+ exchange. 974 60

The formamidopyrimidine N-DNA glycosylase (Fpg protein) of Escherichia coli is a DNA repair enzyme that is specific for the removal of purine-derived lesions from DNA damaged by free radicals and other oxidative processes. We investigated the effect of single mutations on the specificity of this enzyme for three purine-derived lesions in DNA damaged by free radicals. These damaging agents generate a multiplicity of base products in DNA, with the yields depending on the damaging agent. Wild type Fpg protein (wt-Fpg) removes 8-hydroxyguanine (8-OH-Gua), 4,6-diamino-5-formamidopyrimidine (FapyAde), and 2,6-diamino-4-hydroxy-5-formamidopyrimidine (FapyGua) from damaged DNA with similar specificities. We generated five mutant forms of this enzyme with mutations involving Lys-57-->Gly (FpgK57G), Lys-57-->Arg (FpgK57R), Lys-155-->Ala (FpgK155A), Pro-2-->Gly (FpgP2G), and Pro-2-->Glu (FpgP2E), and purified them to homogeneity. FpgK57G and FpgK57R were functional for removal of FapyAde and FapyGua with a reduced activity when compared with wt-Fpg. The removal of 8-OH-Gua was different in that the specificity of FpgK57G was significantly lower for its removal from irradiated DNA, whereas wt-Fpg, FpgK57G, and FpgK57R excised 8-OH-Gua from H2O2/Fe(III)-EDTA/ascorbic acid-treated DNA with almost the same specificity. FpgK155A and FpgP2G had very low activity and FpgP2E exhibited no activity at all. Michaelis-Menten kinetics of excision was measured and kinetic constants were obtained. The results indicate an important role of Lys-57 residue in the activity of Fpg protein for 8-OH-Gua, but a lesser significant role for formamidopyrimidines. Mutations involving Lys-155 and Pro-2 had a dramatic effect with Pro-2-->Glu leading to complete loss of activity, indicating a significant role of these residues. The results show that point mutations significantly change the specificity of Fpg protein and suggest that point mutations are also expected to change specificities of other DNA repair enzymes.
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PMID:Effect of single mutations on the specificity of Escherichia coli FPG protein for excision of purine lesions from DNA damaged by free radicals. 1155 20

Apoptosis is an active form of cell death that is initiated by a variety of stimuli, including reactive oxygen species (ROS) and ultraviolet (UV) radiation. Poly (ADP-ribose) (PAR) is formed upon activation of the DNA repair enzyme poly(ADP-ribose) polymerase (PARP), and therefore was suggested as a new marker of apoptosis. Since DNA of epidermal cells represents a well-known chromophore for UVB irradiation, and UVB is known to generate H2O2 in keratinocytes, we hypothesized that PAR is a very sensitive marker of UVB- and H2O2-induced apoptosis in keratinocytes. In order to test this hypothesis, human immortalized keratinocytes (HaCaT) were UVB-irradiated or treated with H2O2, and subsequently apoptosis was identified by comparing conventional parameters such as morphological analysis, DNA laddering, and TUNEL assay, with PAR formation. Both, UVB and H2O2 treatment induced PAR formation in HaCaT cells in a dose-dependent manner, and its formation was detected as early as 4 h after irradiation, and at lower UVB doses (10 mJ/cm2) than observed by DNA laddering and the TUNEL assay. In conclusion, the detection of PAR formation is a very sensitive and early method for the identification of apoptotic cells in UVB-induced apoptosis of human keratinocytes.
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PMID:Detection of poly(ADP-ribose) by immunocytochemistry: a sensitive new method for the early identification of UVB- and H2O2-induced apoptosis in keratinocytes. 1203 59

Excessive oxidative stress has been implicated in the induction of cell death in a variety of neurodegenerative diseases. In the present study, hydrogen peroxide (H2O2)-induced cell death in rat C6 glioma cells was used as a model system for studying the molecular events associated with oxidative stress-induced cell death in glial cells. We demonstrate that exposure of C6 glioma cells to H2O2 results in apoptotic cell death in a concentration-dependent manner, and caused activation of a member of the caspase-3-like family of proteases resulting in cleavage of the DNA repair enzyme poly(ADP-ribose)polymerase, PARP. Furthermore, H2O2 induced a transient activation of the transcription factor, nuclear factor kappa B (NF(Kappa)B). Pre-treatment of cells with the antioxidant N-acetylcysteine, (NAC), prevented both the activation of NF(Kappa)B and the induction of apoptosis by H2O2, suggesting a possible role for this transcription factor in oxidant-induced apoptosis in glial cells. Exposure of the cells to H2O2 led to transient activation of both c-Jun N-terminal kinase (JNK) and p38 kinase but has no effect on extracellular regulated kinase (ERK) activity. Inhibition of p38 by SB203580 did not protect the cells against H2O2-induced apoptosis suggesting that activation of p38 is not essential for H2O2-mediated cell death in C6 glioma cells.
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PMID:Oxidative stress induces apoptosis in C6 glioma cells: involvement of mitogen-activated protein kinases and nuclear factor kappa B. 1471 69

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